阅读说明：本技术 一种工业废水净化装置的工作方法 (Working method of industrial wastewater purification device ) 是由 刘英秀 于 2018-07-10 设计创作，主要内容包括：本发明涉及一种净化装置,更具体的说是一种工业废水净化装置,包括整机支架、动力机构、变速机构、推动机构、行星机构、收集机构和过滤机构,所述动力机构固定连接在整机支架上,变速机构转动连接在整机支架上,动力机构和变速机构通过带传动连接,推动机构转动连接在收集机构上,收集机构转动连接在整机支架上,行星机构固定连接在整机支架上,可以通过推动机构和收集机构将工业废水中的不可溶物进行去除和收集,当工业废水中的不可溶物较多时工业废水污染较严重变速机构自动加快过滤机构的转动的速度,当工业废水中的不可溶物较少时工业废水污染较轻变速机构自动减慢过滤机构的转动速度节约过滤板的使用。(The invention relates to a purification device, in particular to an industrial wastewater purification device, which comprises a complete machine bracket, a power mechanism, a speed change mechanism, a pushing mechanism, a planetary mechanism, a collecting mechanism and a filtering mechanism, the power mechanism is fixedly connected on the complete machine bracket, the speed change mechanism is rotationally connected on the complete machine bracket, the power mechanism and the speed change mechanism are connected through belt transmission, the pushing mechanism is rotationally connected on the collecting mechanism, the collecting mechanism is rotationally connected on the complete machine bracket, the planetary mechanism is fixedly connected on the complete machine bracket, the insoluble matters in the industrial wastewater can be removed and collected by the pushing mechanism and the collecting mechanism, when the insoluble matters in the industrial wastewater are more, the speed change mechanism with serious industrial wastewater pollution automatically accelerates the rotation speed of the filtering mechanism, when the insoluble matters in the industrial wastewater are less, the industrial wastewater pollution is less, the speed change mechanism automatically reduces the rotating speed of the filtering mechanism, and the use of a filtering plate is saved.)

1. The utility model provides an industrial waste water purifier's operating method, industrial waste water purifier includes complete machine support (1), power unit (2), speed change mechanism (3), pushing mechanism (4), planetary mechanism (5), collects mechanism (6) and filtering mechanism (7), its characterized in that: the power mechanism (2) is fixedly connected to the whole machine support (1), the speed change mechanism (3) is rotatably connected to the whole machine support (1), the power mechanism (2) and the speed change mechanism (3) are connected through belt transmission, the pushing mechanism (4) is rotatably connected to the collecting mechanism (6), the collecting mechanism (6) is rotatably connected to the whole machine support (1), the planetary mechanism (5) is fixedly connected to the whole machine support (1), the speed change mechanism (3) and the pushing mechanism (4) are connected through belt transmission, the pushing mechanism (4) and the planetary mechanism (5) are in gear meshing transmission, the planetary mechanism (5) and the collecting mechanism (6) are in gear meshing transmission, the collecting mechanism (6) is arranged in the whole machine support (1), the filtering mechanism (7) is rotatably connected to the whole machine support (1), and the filtering mechanism (7) and the speed change mechanism (3) are connected through belt transmission, the filtering mechanism (7) is arranged in the whole machine bracket (1);

the whole machine support (1) comprises a purifying rectangular pipeline (1-1), two front support plates (1-2) and two rear support plates (1-3), wherein the two front support plates (1-2) and the two rear support plates (1-3) are arranged in bilateral symmetry, the two front support plates (1-2) are respectively and fixedly connected to the left end and the right end of the front side of the purifying rectangular pipeline (1-1), and the two rear support plates (1-3) are respectively and fixedly connected to the left end and the right end of the rear side of the purifying rectangular pipeline (1-1);

the power mechanism (2) comprises a motor (2-1) and a power belt wheel (2-2), the power belt wheel (2-2) is fixedly connected to an output shaft of the motor (2-1), and the motor (2-1) is fixedly connected to a front support plate (1-2) on the left side;

the speed change mechanism (3) comprises a speed change shaft I (3-1), speed change bevel teeth I (3-2), a speed change belt wheel I (3-3), a speed change connecting belt wheel (3-4), a rotating small shaft (3-5), differential bevel teeth (3-6), a speed change shaft II (3-7), a speed change belt wheel II (3-8) and speed change bevel teeth II (3-9), wherein the speed change bevel teeth I (3-2) and the speed change belt wheel I (3-3) are respectively and fixedly connected to the left end and the right end of the speed change shaft I (3-1), the speed change shaft I (3-1) is rotatably connected to the right end of the speed change connecting belt wheel (3-4), the two ends of the rotating small shaft (3-5) are rotatably connected to the speed change connecting belt wheel (3-4), and the differential bevel teeth (3-6) are fixedly connected to the rotating small shaft (3-5), the variable speed belt wheel II (3-8) and the variable speed bevel gear II (3-9) are respectively and fixedly connected to the left end and the right end of the variable speed shaft II (3-7), the variable speed bevel gear II (3-9) and the variable speed bevel gear I (3-2) are respectively in meshing transmission with the left side and the right side of the differential bevel gear (3-6), the variable speed shaft II (3-7) is rotatably connected to the rear supporting plate (1-3) on the right side, the variable speed shaft I (3-1) is rotatably connected to the rear supporting plate (1-3) on the left side, and the variable speed connecting belt wheel (3-4) is in transmission connection with the power belt wheel (2-2) through a belt;

the pushing mechanism (4) comprises a pushing shaft (4-1), a pushing belt wheel (4-2), a pushing gear (4-3) and a pushing spiral body (4-4), the pushing belt wheel (4-2) is fixedly connected to the right end of the pushing shaft (4-1), the pushing gear (4-3) is fixedly connected to the middle end of the pushing shaft (4-1), the pushing spiral body (4-4) is fixedly connected to the left end of the pushing shaft (4-1), and the pushing belt wheel (4-2) is in transmission connection with the speed change belt wheel I (3-3) through a belt;

the planetary mechanism (5) comprises a planetary gear carrier (5-1) and a mounting column (5-2), the device comprises a planet wheel rotating column (5-3) and planet wheels (5-4), wherein one end of a mounting column (5-2) is fixedly connected to a planet wheel carrier (5-1), the other end of the mounting column (5-2) is fixedly connected to a purifying rectangular pipeline (1-1), the number of the planet wheel rotating column (5-3) and the number of the planet wheels (5-4) are two, the two planet wheel rotating columns (5-3) are fixedly connected to the planet wheel carrier (5-1), the two planet wheels (5-4) are respectively and rotatably connected to the two planet wheel rotating columns (5-3), the inner sides of the two planet wheels (5-4) are respectively meshed with a pushing gear (4-3), and a pushing shaft (4-1) is in clearance fit with the planet wheel carrier (5-1);

the collecting mechanism (6) comprises a collecting cylinder (6-1), a connecting cylinder (6-2), a gear ring (6-3), collecting arc-shaped plates (6-4), water passing grooves (6-5), collecting baffles (6-6) and collecting grooves (6-7), the connecting cylinder (6-2) is fixedly connected to the left end of the collecting cylinder (6-1), the gear ring (6-3) is fixedly connected to the connecting cylinder (6-2), four collecting arc-shaped plates (6-4) are uniformly arranged in the circumferential direction, the inner ends of the four collecting arc-shaped plates (6-4) are fixedly connected to the collecting cylinder (6-1), a plurality of water passing grooves (6-5) are arranged on the outer sides of the four collecting arc-shaped plates (6-4), and the inner sides of the four collecting arc-shaped plates (6-4) are respectively provided with the collecting grooves (6-7), the four collecting tanks (6-7) are respectively and rotatably connected with collecting baffles (6-6), two ends of a collecting cylinder (6-1) are respectively and rotatably connected to the left end and the right end of a rectangular purifying pipeline (1-1), a pushing shaft (4-1) is rotatably connected to a connecting cylinder (6-2), and the outer sides of two planet wheels (5-4) are respectively meshed with a gear ring (6-3);

the filter mechanism (7) comprises a filter shaft (7-1), filter belt wheels (7-2), filter supports (7-3), filter baffles (7-4), active carbon slots (7-5) and filter plates (7-6), the filter belt wheels (7-2) are fixedly connected to the left end of the filter shaft (7-1), four filter supports (7-3) are uniformly arranged in the circumferential direction, the inner ends of the four filter supports (7-3) are fixedly connected to the filter shaft (7-1), the two sides of each of the four filter supports (7-3) are fixedly connected with the filter baffles (7-4), each pair of filter baffles (7-4) form a rectangular groove, the number of the active carbon slots (7-5) is four, the four active carbon slots (7-5) are respectively arranged on the four filter supports (7-3), the four activated carbon slots (7-5) are respectively communicated with the four rectangular slots, two ends of the filtering shaft (7-1) are rotatably connected to the purifying rectangular pipeline (1-1), and the variable speed belt wheel II (3-8) is in transmission connection with the filtering belt wheel (7-2) through a belt;

the working method of the industrial wastewater purification device comprises the following steps: when the device is used, industrial wastewater flows in from the rear end of the purifying rectangular pipeline, the industrial wastewater flows in from the rear end of the purifying rectangular pipeline and flows out from the front end of the purifying rectangular pipeline, the motor is started, the output shaft of the motor starts to rotate, the output shaft of the motor drives the power belt pulley to start to rotate, the power belt pulley drives the variable-speed connecting belt pulley to start to rotate, the variable-speed connecting belt pulley circumferentially rotates by taking the variable-speed shaft I as a center, the variable-speed connecting belt pulley pushes the small rotating shaft to circumferentially rotate by taking the variable-speed shaft I as a center, the small rotating shaft drives the differential bevel gear to circumferentially rotate by taking the variable-speed shaft I as a center, the differential bevel gear pushes the variable-speed bevel gears I and the variable-speed bevel gears II on two sides to rotate, when the reactive forces transmitted by the variable-speed shaft I and the variable-speed bevel gears II are the same, the differential bevel gear does not rotate, and when the reactive force transmitted, the differential bevel gear rotates, the differential bevel gear pushes the speed change bevel gear II fixedly connected with the speed change shaft II with smaller stress to rotate, the rotating speed of the speed change bevel gear II is higher than that of the speed change bevel gear I, when the reaction force transmitted from the speed change shaft I is smaller than that of the speed change shaft II, the differential bevel gear rotates, the differential bevel gear pushes the speed change bevel gear I fixedly connected with the speed change shaft I with smaller stress to rotate, the rotating speed of the speed change bevel gear II is lower than that of the speed change bevel gear I, the speed change belt wheel I drives the push belt wheel to rotate, the push belt wheel drives the push shaft to rotate, the push shaft drives the push gear and the push screw body to rotate, the push gear drives the two planet wheels to rotate, the two planet wheels drive the gear ring to rotate, the gear ring drives the connecting cylinder to rotate, and the connecting cylinder drives the collecting cylinder to rotate, the collecting cylinder drives the four collecting arc-shaped plates to rotate, the rotating directions of the four collecting arc-shaped plates are opposite to the water flow direction, the four collecting arc-shaped plates collect insoluble matters in the industrial wastewater, when the four collecting arc plates drive the insoluble matters in the industrial wastewater to rotate to the upper side, the insoluble matters in the industrial wastewater push the collecting baffle to rotate, the insoluble matters in the industrial wastewater are conveyed into the collecting cylinder from the collecting tank, when the four collecting arc plates drive insoluble matters in the industrial wastewater to rotate to the lower side, the insoluble matters in the industrial wastewater are blocked by the collecting baffle, the collecting tank is blocked by the collecting baffle through the action of gravity, the insoluble matters in the industrial wastewater cannot fall out of the collecting tank, the spiral body is pushed to push out the insoluble matters in the industrial wastewater in the collecting cylinder, and the insoluble matters in the industrial wastewater are pushed out of the left side of the collecting cylinder and fall into the collecting device; when the insoluble matters in the industrial wastewater are more, the speed change mechanism with serious industrial wastewater pollution automatically accelerates the rotation speed of the filtering mechanism, and when the insoluble matters in the industrial wastewater are less, the speed change mechanism with light industrial wastewater pollution automatically decelerates the rotation speed of the filtering mechanism, thereby saving the use of a filter plate.

Technical Field

The invention relates to a purification device, in particular to a working method of an industrial wastewater purification device.

Background

For example, patent No. CN201810202343.4 discloses an industrial wastewater purification device, which comprises a treatment tank, a filter assembly, a deslagging tank, and a deslagging assembly, wherein a water inlet is formed in an upper end surface of the treatment tank, the filter assembly is mounted at an upper end inside the treatment tank, the deslagging tank is fixed at a left end surface of the treatment tank, the deslagging assembly is assembled inside the deslagging tank, the filter assembly comprises a first suspension, a first bunching roller, a first pull rope, a frame body, a filter screen, a first sliding chute, a first sliding block, a horizontal pipe, a nozzle, a second pull rope, a second suspension, a second bunching roller, and a fixing rod, and the deslagging assembly comprises a push plate, an electric push rod, a fixing seat, a ball nut seat, a screw rod, an opening, a baffle, a second sliding chute, a second sliding block, a rotating rod, a transmission shaft: the purpose of removing large-particle impurities is achieved, the large-particle impurities can be cleaned, the environmental protection performance is improved, the output of the large-particle impurities is realized, and the operation is simple; the invention has the disadvantages that insoluble matters in the industrial wastewater cannot be removed and collected, and the purification speed cannot be automatically adjusted according to the pollution degree in the industrial wastewater.

Disclosure of Invention

The invention aims to provide a working method of an industrial wastewater purification device, which can remove and collect insoluble matters in industrial wastewater, automatically accelerate the purification speed when the industrial wastewater is seriously polluted by the insoluble matters in the industrial wastewater, and automatically slow down the purification speed when the industrial wastewater is less polluted by the insoluble matters in the industrial wastewater, thereby saving the use of a filter plate.

The purpose of the invention is realized by the following technical scheme:

an industrial wastewater purification device comprises a complete machine bracket, a power mechanism, a speed change mechanism, a pushing mechanism, a planetary mechanism, a collection mechanism and a filtering mechanism, the automatic filter is characterized in that the power mechanism is fixedly connected to the whole machine support, the speed change mechanism is rotatably connected to the whole machine support, the power mechanism and the speed change mechanism are connected through belt transmission, the pushing mechanism is rotatably connected to the collecting mechanism, the collecting mechanism is rotatably connected to the whole machine support, the planetary mechanism is fixedly connected to the whole machine support, the speed change mechanism and the pushing mechanism are connected through belt transmission, the pushing mechanism and the planetary mechanism are in gear engagement transmission, the planetary mechanism and the collecting mechanism are in gear engagement transmission, the collecting mechanism is arranged in the whole machine support, the filtering mechanism is rotatably connected to the whole machine support, the filtering mechanism and the speed change mechanism are connected through belt transmission, and the filtering mechanism is arranged in the whole machine support.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a complete machine support, wherein the complete machine support comprises a purification rectangular pipeline, two front support plates and two rear support plates, the two front support plates and the two rear support plates are arranged in bilateral symmetry, the two front support plates are respectively and fixedly connected to the left end and the right end of the front side of the purification rectangular pipeline, and the two rear support plates are respectively and fixedly connected to the left end and the right end of the rear side of the purification rectangular pipeline.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a power mechanism and a power belt wheel, wherein the power belt wheel is fixedly connected to an output shaft of the motor, and the motor is fixedly connected to a front support plate positioned on the left side.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a speed change mechanism, a speed change bevel gear I, a speed change belt wheel I, a speed change connecting belt wheel, a rotating small shaft, a differential bevel gear, a speed change shaft II, a speed change belt wheel II and a speed change bevel gear II, wherein the speed change bevel gear I and the speed change belt wheel I are respectively and fixedly connected to the left end and the right end of the speed change shaft I, the speed change shaft I is rotatably connected to the right end of the speed change connecting belt wheel, the two ends of the rotating small shaft are rotatably connected to the speed change connecting belt wheel, the differential bevel gear is fixedly connected to the rotating small shaft, the speed change belt wheel II and the speed change bevel gear II are respectively and fixedly connected to the left end and the right end of the speed change shaft II, the speed change bevel gear II and the speed change bevel gear I are respectively in meshing transmission with the left side and the right side of the differential bevel gear, the speed, the variable-speed connecting belt wheel is in transmission connection with the power belt wheel through a belt.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a pushing mechanism, a pushing belt wheel, a pushing gear and a pushing spiral body, wherein the pushing belt wheel is fixedly connected to the right end of the pushing shaft, the pushing gear is fixedly connected to the middle end of the pushing shaft, the pushing spiral body is fixedly connected to the left end of the pushing shaft, and the pushing belt wheel is in transmission connection with a speed change belt wheel I through a belt.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a planetary gear carrier, a mounting column, two planetary gear rotating columns and two planetary gears, wherein one end of the mounting column is fixedly connected to the planetary gear carrier, the other end of the mounting column is fixedly connected to a purification rectangular pipeline, the two planetary gear rotating columns and the two planetary gears are fixedly connected to the planetary gear carrier, the two planetary gears are respectively and rotatably connected to the two planetary gear rotating columns, the inner sides of the two planetary gears are respectively engaged with a pushing gear, and the pushing shaft is in clearance fit with the planetary gear carrier.

As further optimization of the technical scheme, the industrial wastewater purification device comprises a collection mechanism, a connection cylinder, a gear ring, collection arcs, water passing grooves, collection baffles and a collection groove, wherein the connection cylinder is fixedly connected to the left end of the collection cylinder, the gear ring is fixedly connected to the connection cylinder, four collection arcs are uniformly arranged in the circumferential direction, the inner ends of the four collection arcs are fixedly connected to the collection cylinder, a plurality of water passing grooves are formed in the outer sides of the four collection arcs, the collection groove is formed in the inner sides of the four collection arcs, the collection baffles are connected to the four collection grooves in a rotating mode, two ends of the collection cylinder are respectively connected to the left end and the right end of a purification rectangular pipeline in a rotating mode, a pushing shaft is connected to the connection cylinder in a rotating mode, and the outer sides of the two planet wheels are meshed.

As a further optimization of the technical scheme, the industrial wastewater purification device comprises a filter shaft, filter belt wheels, filter supports, filter baffles, four activated carbon slots and filter plates, wherein the filter belt wheels are fixedly connected to the left end of the filter shaft, the number of the filter supports is four, the inner ends of the four filter supports are fixedly connected to the filter shaft, the two sides of each filter support are fixedly connected with the filter baffles, each pair of filter baffles form a rectangular groove, the number of the activated carbon slots is four, the four activated carbon slots are respectively arranged on the four filter supports and are respectively communicated with the four rectangular grooves, the two ends of the filter shaft are respectively rotatably connected to a purification rectangular pipeline, and the variable speed belt wheel II is connected with the filter belt wheels through belt transmission.

The working method of the industrial wastewater purification device comprises the following steps: when the device is used, industrial wastewater flows in from the rear end of the purifying rectangular pipeline, the industrial wastewater flows in from the rear end of the purifying rectangular pipeline and flows out from the front end of the purifying rectangular pipeline, the motor is started, the output shaft of the motor starts to rotate, the output shaft of the motor drives the power belt pulley to start to rotate, the power belt pulley drives the variable-speed connecting belt pulley to start to rotate, the variable-speed connecting belt pulley circumferentially rotates by taking the variable-speed shaft I as a center, the variable-speed connecting belt pulley pushes the small rotating shaft to circumferentially rotate by taking the variable-speed shaft I as a center, the small rotating shaft drives the differential bevel gear to circumferentially rotate by taking the variable-speed shaft I as a center, the differential bevel gear pushes the variable-speed bevel gears I and the variable-speed bevel gears II on two sides to rotate, when the reactive forces transmitted by the variable-speed shaft I and the variable-speed bevel gears II are the same, the differential bevel gear does not rotate, and when the reactive force transmitted, the differential bevel gear rotates, the differential bevel gear pushes the speed change bevel gear II fixedly connected with the speed change shaft II with smaller stress to rotate, the rotating speed of the speed change bevel gear II is higher than that of the speed change bevel gear I, when the reaction force transmitted from the speed change shaft I is smaller than that of the speed change shaft II, the differential bevel gear rotates, the differential bevel gear pushes the speed change bevel gear I fixedly connected with the speed change shaft I with smaller stress to rotate, the rotating speed of the speed change bevel gear II is lower than that of the speed change bevel gear I, the speed change belt wheel I drives the push belt wheel to rotate, the push belt wheel drives the push shaft to rotate, the push shaft drives the push gear and the push screw body to rotate, the push gear drives the two planet wheels to rotate, the two planet wheels drive the gear ring to rotate, the gear ring drives the connecting cylinder to rotate, and the connecting cylinder drives the collecting cylinder to rotate, the collecting cylinder drives the four collecting arc-shaped plates to rotate, the rotating directions of the four collecting arc-shaped plates are opposite to the water flow direction, the four collecting arc-shaped plates collect insoluble matters in the industrial wastewater, when the four collecting arc plates drive the insoluble matters in the industrial wastewater to rotate to the upper side, the insoluble matters in the industrial wastewater push the collecting baffle to rotate, the insoluble matters in the industrial wastewater are conveyed into the collecting cylinder from the collecting tank, when the four collecting arc plates drive insoluble matters in the industrial wastewater to rotate to the lower side, the insoluble matters in the industrial wastewater are blocked by the collecting baffle, the collecting tank is blocked by the collecting baffle through the action of gravity, the insoluble matters in the industrial wastewater cannot fall out of the collecting tank, the spiral body is pushed to push out the insoluble matters in the industrial wastewater in the collecting cylinder, and the insoluble matters in the industrial wastewater are pushed out of the left side of the collecting cylinder and fall into the collecting device; when the insoluble matters in the industrial wastewater are more, the speed change mechanism with serious industrial wastewater pollution automatically accelerates the rotation speed of the filtering mechanism, and when the insoluble matters in the industrial wastewater are less, the speed change mechanism with light industrial wastewater pollution automatically decelerates the rotation speed of the filtering mechanism, thereby saving the use of a filter plate.

The industrial wastewater purification device has the beneficial effects that:

the industrial wastewater purification device can remove and collect insoluble matters in the industrial wastewater through the pushing mechanism and the collecting mechanism, the speed change mechanism with serious industrial wastewater pollution automatically accelerates the rotation speed of the filtering mechanism when the insoluble matters in the industrial wastewater are more, and the speed change mechanism with light industrial wastewater pollution automatically decelerates the rotation speed of the filtering mechanism when the insoluble matters in the industrial wastewater are less, so that the use of a filter plate is saved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view showing the overall construction of an industrial wastewater purification apparatus according to the present invention;

FIG. 2 is a schematic view of the overall bracket structure of the present invention;

FIG. 3 is a schematic diagram of a power mechanism according to the present invention;

FIG. 4 is a schematic structural view of the shifting mechanism of the present invention;

FIG. 5 is a schematic cross-sectional structural view of the shifting mechanism of the present invention;

FIG. 6 is a schematic view of the pushing mechanism of the present invention;

FIG. 7 is a schematic structural view of the planetary mechanism of the present invention;

FIG. 8 is a schematic view of the collection mechanism of the present invention;

FIG. 9 is a schematic cross-sectional view of the collection mechanism of the present invention;

FIG. 10 is a schematic view of the collection baffle of the present invention;

FIG. 11 is a schematic view of the filter mechanism of the present invention;

fig. 12 is a schematic cross-sectional view of the filter mechanism of the present invention.

In the figure: a complete machine bracket 1; purifying a rectangular pipeline 1-1; a front support plate 1-2; 1-3 of a rear supporting plate; a power mechanism 2; a motor 2-1; a power pulley 2-2; a speed change mechanism 3; a speed change shaft I3-1; the speed change bevel gear I3-2; a speed change pulley I3-3; the variable speed connecting belt wheel 3-4; rotating the small shaft by 3-5; 3-6 parts of differential bevel gear; a variable speed shaft II 3-7; a variable speed pulley II 3-8; speed change bevel teeth II 3-9; a pushing mechanism 4; pushing the shaft 4-1; a push belt wheel 4-2; 4-3 of a pushing gear; pushing the spirochete 4-4; a planetary mechanism 5; 5-1 of a planet carrier; mounting a column 5-2; a planet wheel rotating column 5-3; planet wheels 5-4; a collecting mechanism 6; 6-1 of a collecting cylinder; a connecting cylinder 6-2; gear ring 6-3; collecting the arc-shaped plates 6-4; 6-5 of a water tank; a collecting baffle 6-6; collecting tank 6-7; a filter mechanism 7; a filter shaft 7-1; a filter belt wheel 7-2; 7-3 of a filter support; 7-4 of a filtering baffle plate; 7-5 active carbon slots; and (7) filter plates (7-6).

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and an industrial wastewater purification device comprises a complete machine support 1, a power mechanism 2, a speed change mechanism 3, a pushing mechanism 4, a planetary mechanism 5, a collecting mechanism 6 and a filtering mechanism 7, wherein the power mechanism 2 is fixedly connected to the complete machine support 1, the speed change mechanism 3 is rotatably connected to the complete machine support 1, the power mechanism 2 and the speed change mechanism 3 are connected by belt transmission, the pushing mechanism 4 is rotatably connected to the collecting mechanism 6, the collecting mechanism 6 is rotatably connected to the complete machine support 1, the planetary mechanism 5 is fixedly connected to the complete machine support 1, the speed change mechanism 3 and the pushing mechanism 4 are connected by belt transmission, the pushing mechanism 4 and the planetary mechanism 5 are in gear meshing transmission, the planetary mechanism 5 and the collecting mechanism 6 are in gear meshing transmission, the collecting mechanism 6 is arranged in the complete machine support 1, the filtering mechanism 7 is rotatably connected to the complete machine, the filtering mechanism 7 is in transmission connection with the speed change mechanism 3 through a belt, and the filtering mechanism 7 is arranged in the whole machine bracket 1; the insoluble matters in the industrial wastewater can be removed and collected through the pushing mechanism 4 and the collecting mechanism 6, the speed change mechanism 3 with serious industrial wastewater pollution automatically accelerates the rotation speed of the filtering mechanism 7 when the insoluble matters in the industrial wastewater are more, and the speed change mechanism 3 with light industrial wastewater pollution automatically decelerates the rotation speed of the filtering mechanism 7 when the insoluble matters in the industrial wastewater are less, so that the use of the filtering plates 7-6 is saved.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the complete machine support 1 includes a purifying rectangular pipe 1-1, a front support plate 1-2 and a rear support plate 1-3, the front support plate 1-2 and the rear support plate 1-3 are symmetrically arranged in left and right, the two front support plates 1-2 are respectively fixedly connected to the left and right ends of the front side of the purifying rectangular pipe 1-1, and the two rear support plates 1-3 are respectively fixedly connected to the left and right ends of the rear side of the purifying rectangular pipe 1-1; when in use, the industrial wastewater flows in from the rear end of the purifying rectangular pipeline 1-1, and the industrial wastewater flows in from the rear end of the purifying rectangular pipeline 1-1 and flows out from the front end of the purifying rectangular pipeline 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the second embodiment is further described in the embodiment, where the power mechanism 2 includes a motor 2-1 and a power pulley 2-2, the power pulley 2-2 is fixedly connected to an output shaft of the motor 2-1, and the motor 2-1 is fixedly connected to a front support plate 1-2 located on the left side; the motor 2-1 is started, the output shaft of the motor 2-1 starts to rotate, and the output shaft of the motor 2-1 drives the power belt wheel 2-2 to start to rotate.

The fourth concrete implementation mode:

the third embodiment will be further described with reference to fig. 1-12, wherein the speed-changing mechanism 3 includes a speed-changing shaft i 3-1, a speed-changing bevel gear i 3-2, a speed-changing pulley i 3-3, a speed-changing connecting pulley 3-4, a rotating small shaft 3-5, a differential bevel gear 3-6, a speed-changing shaft ii 3-7, a speed-changing pulley ii 3-8 and a speed-changing bevel gear ii 3-9, the speed-changing bevel gear i 3-2 and the speed-changing pulley i 3-3 are respectively and fixedly connected to the left and right ends of the speed-changing shaft i 3-1, the speed-changing shaft i 3-1 is rotatably connected to the right end of the speed-changing connecting pulley 3-4, both ends of the rotating small shaft 3-5 are rotatably connected to the speed-changing connecting pulley 3-4, the differential bevel gear 3-6 is fixedly connected to the rotating small shaft 3-, the speed change belt wheels II 3-8 and the speed change bevel teeth II 3-9 are respectively and fixedly connected to the left end and the right end of the speed change shaft II 3-7, the speed change bevel teeth II 3-9 and the speed change bevel teeth I3-2 are respectively in meshing transmission with the left side and the right side of the differential bevel teeth 3-6, the speed change shaft II 3-7 is rotatably connected to the rear supporting plate 1-3 on the right side, the speed change shaft I3-1 is rotatably connected to the rear supporting plate 1-3 on the left side, and the speed change connecting belt wheel 3-4 and the power belt wheel 2-2 are connected through belt transmission; the power belt wheel 2-2 drives the variable-speed connecting belt wheel 3-4 to start to rotate, the variable-speed connecting belt wheel 3-4 circumferentially rotates by taking the variable-speed shaft I3-1 as a center, the variable-speed connecting belt wheel 3-4 pushes the rotary small shaft 3-5 to circumferentially rotate by taking the variable-speed shaft I3-1 as a center, the rotary small shaft 3-5 drives the differential bevel gear 3-6 to circumferentially rotate by taking the variable-speed shaft I3-1 as a center, the differential bevel gear 3-6 pushes the variable bevel gears I3-2 and II 3-9 on two sides to rotate, when the reaction forces transmitted by the variable-speed shaft I3-1 and the variable-speed shaft II 3-7 received by the variable bevel gear I3-2 and the variable bevel gear II 3-9 are the same, the differential bevel gear 3-6 does not self-rotate, when the reaction force transmitted by the variable-speed shaft I3-1 is greater than the reaction force transmitted by the variable-speed shaft II, the differential bevel gear 3-6 autorotates, the differential bevel gear 3-6 pushes the speed change bevel gear II 3-9 fixedly connected to the speed change shaft II 3-7 with smaller stress to rotate, the rotating speed of the speed change bevel gear II 3-9 is greater than that of the speed change bevel gear I3-2, when the reaction force transmitted from the speed change shaft I3-1 is smaller than that of the speed change shaft II 3-7, the differential bevel gear 3-6 autorotates, the differential bevel gear 3-6 pushes the speed change bevel gear I3-2 fixedly connected to the speed change shaft I3-1 with smaller stress to rotate, and the rotating speed of the speed change bevel gear II 3-9 is smaller than that of the speed change bevel gear I3-2.

The fifth concrete implementation mode:

the fourth embodiment is further described with reference to fig. 1 to 12, in which the pushing mechanism 4 includes a pushing shaft 4-1, a pushing belt pulley 4-2, a pushing gear 4-3 and a pushing spiral body 4-4, the pushing belt pulley 4-2 is fixedly connected to the right end of the pushing shaft 4-1, the pushing gear 4-3 is fixedly connected to the middle end of the pushing shaft 4-1, the pushing spiral body 4-4 is fixedly connected to the left end of the pushing shaft 4-1, and the pushing belt pulley 4-2 and the speed changing belt pulley i 3-3 are in belt transmission connection; the speed changing belt wheel I3-3 drives the pushing belt wheel 4-2 to rotate, the pushing belt wheel 4-2 drives the pushing shaft 4-1 to rotate, and the pushing shaft 4-1 drives the pushing gear 4-3 and the pushing spiral body 4-4 to rotate.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the fifth embodiment, where the planetary mechanism 5 includes a planetary carrier 5-1, a mounting column 5-2, a planetary rotation column 5-3 and planetary wheels 5-4, one end of the mounting column 5-2 is fixedly connected to the planetary carrier 5-1, the other end of the mounting column 5-2 is fixedly connected to the purifying rectangular pipe 1-1, two planetary rotation columns 5-3 and two planetary wheels 5-4 are provided, two planetary rotation columns 5-3 are fixedly connected to the planetary carrier 5-1, two planetary wheels 5-4 are respectively rotatably connected to the two planetary rotation columns 5-3, the inner sides of the two planetary wheels 5-4 are engaged with the pushing gear 4-3, the pushing shaft 4-1 is in clearance fit with the planet carrier 5-1; the push gear 4-3 drives the two planet gears 5-4 to rotate.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 12, and the sixth embodiment is further described, in which the collecting mechanism 6 includes a collecting cylinder 6-1, a connecting cylinder 6-2, a gear ring 6-3, collecting arc-shaped plates 6-4, water passing grooves 6-5, collecting baffles 6-6 and collecting grooves 6-7, the connecting cylinder 6-2 is fixedly connected to the left end of the collecting cylinder 6-1, the gear ring 6-3 is fixedly connected to the connecting cylinder 6-2, four collecting arc-shaped plates 6-4 are uniformly arranged in the circumferential direction, the inner ends of the four collecting arc-shaped plates 6-4 are fixedly connected to the collecting cylinder 6-1, the outer sides of the four collecting arc-shaped plates 6-4 are provided with a plurality of water passing grooves 6-5, and the inner sides of the four collecting arc-shaped plates 6-4 are provided with collecting grooves 6-7, the four collecting tanks 6-7 are respectively and rotatably connected with collecting baffles 6-6, two ends of a collecting cylinder 6-1 are respectively and rotatably connected with the left end and the right end of a rectangular purifying pipeline 1-1, a pushing shaft 4-1 is rotatably connected on a connecting cylinder 6-2, and the outer sides of two planet wheels 5-4 are respectively meshed with a gear ring 6-3; two planet wheels 5-4 drive a gear ring 6-3 to rotate, the gear ring 6-3 drives a connecting cylinder 6-2 to rotate, the connecting cylinder 6-2 drives a collecting cylinder 6-1 to rotate, the collecting cylinder 6-1 drives four collecting arc plates 6-4 to rotate, the rotating direction of the four collecting arc plates 6-4 is opposite to the water flow direction, the four collecting arc plates 6 collect insoluble matters in the industrial wastewater, when the four collecting arc plates 6 drive the insoluble matters in the industrial wastewater to rotate to the upper side, the insoluble matters in the industrial wastewater push a collecting baffle plate 6-6 to rotate, the insoluble matters in the industrial wastewater go into the collecting cylinder 6-1 from a collecting tank 6-7, when the four collecting arc plates 6 drive the insoluble matters in the industrial wastewater to rotate to the lower side, insoluble matters in the industrial wastewater are stopped by the collecting baffle 6-6, the collecting baffle 6-6 stops the collecting groove 6-7 through the action of gravity, the insoluble matters in the industrial wastewater cannot fall out of the collecting groove 6-7, the spiral body 4-4 is pushed to push out the insoluble matters in the industrial wastewater in the collecting cylinder 6-1, and the insoluble matters in the industrial wastewater are pushed out from the left side of the collecting cylinder 6-1 and fall into the collecting device.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes an embodiment seven, where the filter mechanism 7 includes a filter shaft 7-1, filter pulleys 7-2, filter supports 7-3, filter baffles 7-4, activated carbon slots 7-5, and filter plates 7-6, the filter pulleys 7-2 are fixedly connected to the left end of the filter shaft 7-1, four filter supports 7-3 are uniformly arranged in the circumferential direction, the inner ends of the four filter supports 7-3 are all fixedly connected to the filter shaft 7-1, the two sides of the four filter supports 7-3 are all fixedly connected to the filter baffles 7-4, each pair of filter baffles 7-4 forms a rectangular slot, four activated carbon slots 7-5 are arranged, four activated carbon slots 7-5 are respectively arranged on the four filter supports 7-3, the four activated carbon slots 7-5 are respectively communicated with the four rectangular slots, two ends of the filtering shaft 7-1 are rotatably connected to the purifying rectangular pipeline 1-1, and the variable speed belt wheel II 3-8 and the filtering belt wheel 7-2 are in transmission connection through a belt; when the insoluble matter in the industrial waste water is more, the speed change mechanism 3 with serious industrial waste water pollution automatically increases the rotating speed of the filtering mechanism 7, and when the insoluble matter in the industrial waste water is less, the speed change mechanism 3 with light industrial waste water pollution automatically reduces the rotating speed of the filtering mechanism 7, thereby saving the use of the filtering plate 7-6.

The invention relates to an industrial wastewater purification device, which has the working principle that:

when the device is used, industrial wastewater flows in from the rear end of the purifying rectangular pipeline 1-1, the industrial wastewater flows in from the rear end of the purifying rectangular pipeline 1-1 and flows out from the front end of the purifying rectangular pipeline 1-1, the motor 2-1 is started, the output shaft of the motor 2-1 starts to rotate, the output shaft of the motor 2-1 drives the power belt wheel 2-2 to start to rotate, the power belt wheel 2-2 drives the variable speed connecting belt wheel 3-4 to start to rotate, the variable speed connecting belt wheel 3-4 circumferentially rotates around the variable speed shaft I3-1, the variable speed connecting belt wheel 3-4 pushes the rotating small shaft 3-5 to circumferentially rotate around the variable speed shaft I3-1, and the rotating small shaft 3-5 drives the differential bevel gear 3-6 to circumferentially rotate around the variable speed shaft I3-1, the differential bevel gear 3-6 pushes the variable speed bevel gear I3-2 and the variable speed bevel gear II 3-9 on two sides to rotate, when the reaction forces transmitted by the variable speed shaft I3-1 and the variable speed shaft II 3-7 received by the variable speed bevel gear I3-2 and the variable speed bevel gear II 3-9 are the same, the differential bevel gear 3-6 does not rotate, when the reaction force transmitted by the variable speed shaft I3-1 is greater than the reaction force transmitted by the variable speed shaft II 3-7, the differential bevel gear 3-6 rotates, the differential bevel gear 3-6 pushes the variable speed bevel gear II 3-9 fixedly connected with the variable speed shaft II 3-7 with smaller stress to rotate, the rotating speed of the variable speed bevel gear II 3-9 is greater than the rotating speed of the variable speed bevel gear I3-2, when the reaction force transmitted by the variable speed shaft I3-1 is less than the reaction force transmitted by the variable speed shaft II 3-7, the differential bevel gear 3-6 rotates, the differential bevel gear 3-6 pushes the speed change bevel gear I3-2 fixedly connected to the speed change shaft I3-1 with smaller stress to rotate, the rotation speed of the speed change bevel gear II 3-9 is smaller than that of the speed change bevel gear I3-2, the speed change belt wheel I3-3 drives the push belt wheel 4-2 to rotate, the push belt wheel 4-2 drives the push shaft 4-1 to rotate, the push shaft 4-1 drives the push gear 4-3 and the push spiral body 4-4 to rotate, the push gear 4-3 drives the two planet wheels 5-4 to rotate, the two planet wheels 5-4 drive the gear ring 6-3 to rotate, the gear ring 6-3 drives the connecting cylinder 6-2 to rotate, and the connecting cylinder 6-2 drives the collecting cylinder 6-1 to rotate, the collecting cylinder 6-1 drives the four collecting arc-shaped plates 6-4 to rotate, the rotating direction of the four collecting arc-shaped plates 6-4 is opposite to the water flow direction, the four collecting arc-shaped plates 6 collect insoluble matters in the industrial wastewater, when the four collecting arc-shaped plates 6 drive the insoluble matters in the industrial wastewater to rotate to the upper side, the insoluble matters in the industrial wastewater push the collecting baffle 6-6 to rotate, the insoluble matters in the industrial wastewater are conveyed into the collecting cylinder 6-1 from the collecting tank 6-7, when the four collecting arc-shaped plates 6 drive the insoluble matters in the industrial wastewater to rotate to the lower side, the insoluble matters in the industrial wastewater are blocked by the collecting baffle 6-6, the collecting baffle 6-6 blocks the collecting tank 6-7 through the gravity action, and the insoluble matters in the industrial wastewater cannot fall out from the collecting tank 6-7, pushing the spiral body 4-4 to push out insoluble matters in the industrial wastewater in the collecting cylinder 6-1, wherein the insoluble matters in the industrial wastewater are pushed out from the left side of the collecting cylinder 6-1 and fall into a collecting device; when the insoluble matter in the industrial waste water is more, the speed change mechanism 3 with serious industrial waste water pollution automatically increases the rotating speed of the filtering mechanism 7, and when the insoluble matter in the industrial waste water is less, the speed change mechanism 3 with light industrial waste water pollution automatically reduces the rotating speed of the filtering mechanism 7, thereby saving the use of the filtering plate 7-6.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.